Abstract
This paper will report on the development of a research program by a group of science educators at Kristianstad University, which has its roots in a longitudinal study I conducted concerning students’ developing understandings of ecological processes. Following the insights generated in this first study concerning the nature of student understandings, and the potential of the longitudinal design, a research group has developed at Kristianstad which has extended this work into related areas. This paper will describe my own work and its development, and link it with three projects that use a longitudinal design, which we have subsequently undertaken and in some cases completed. The emphasis within the paper will be on the findings generated by these studies on student learning and response to science, and the particular features of the longitudinal design that allow such insights to emerge. The paper will explore patterns of change, and continuity, as a way of appreciating the particular contributions of longitudinal studies.
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References
Andersson, B. (1990). Students’ conceptions of matter and its transformations (age 12–16). Studies in Science Education, 18, 53–85.
Arzi, H. J. (1988). From short- to long-term: Studying science education longitudinally. Studies in Science Education, 15, 17–53.
Ausubel, D. P., Novak, J. D., & Hanesian, H. (1978). Educational psychology: A cognitive view (2nd ed.). New York: Holt, Rinehart & Winston.
Eskilsson, O. (1999). Longitudinal study on lab work and 10–12-year-olds’ development on the concepts of transformation of matter. In J. Leach, & A. C. Paulsen (Eds.), Practical work in science education (pp. 229–243). Dordrecht, The Netherlands: Dordrecht, The Netherlands Kluwer Academic Publishers.
Eskilsson, O. (2001). En longitudinell studie av 10–12-å ringarsförståelse av materiens förändringar [A longitudinal study of 10–12-year-olds’ conceptions of the transformations of matter], Göteborg studies in educational sciences, 167. Göteborg: Acta Universitatis Gothoburgensis. Summary in English retrieved February 10, 2004, from http://www.mna.hkr.se/~eso/summaryPHD.pdf
Härnqvist, K. (1998). A longitudinal program for studying education and career development. (Report No 1998:01). Göteborg, Sweden: Göteborg University, Department of Education and Educational Research.
Helldén, G. (1995). Environmental education and students’ conceptions of matter. Environmental Education Research, 1(3), 267–277.
Helldén, G. (1998, April). A longitudinal study of students’ conceptualization of ecological processes. Paper presented at the annual meeting of the National Association for Research in Science Teaching, San Diego, CA.
Helldén, G. (2003a). Longitudinal studies – providing insight into individual themes in science learning and students’ views of their own learning. In D. Psillos, P. Kariotoglou, V. Tselfes, E. Hatzikraniotis, G. Fassoulopoulos, & M. Kallery (Eds.), Science education research in the knowledge-based society (pp. 61–68). Dordrecht, The Netherlands: Kluwer Academic Publishers.
Helldén, G. (2003b). Personal context and continuity of human thought as recurrent themes in a longitudinal study. Scandinavian Journal of Educational Research, 47(2), 205–217.
Holgersson, I., & Löfgren, L. (2004). A long-term study of students’ explanations of transformations of matter. Canadian Journal of Science, Mathematics and Technology Education, 4(1), 77–96.
Lindahl, B. (2003). Lust att lära naturvetenskap och teknik? En longitudinell studie om vägen till gymnasiet. (Pupils’ responses to school science and technology? A longitudinal study of pathways to upper secondary school.) Göteborg studies in educational sciences 196. Göteborg: Acta Universitatis Gothoburgensis. Summary in English retrieved February 10, 2004, from http://www.mna.hkr.se/~ll/summary.pdf
Novak, J. D. (1998). Learning, creating, and using knowledge: Concept maps as facilitative tools in schools and corporations. Mahwah, NJ: Erlbaum.
Stavy, R. (1995). Conceptual development of basic ideas in chemistry. In S. M. Glynn & R. Duit (Eds.), Learning science in the schools: Research reforming practice (pp. 131–154). Mahwah, NJ: Erlbaum.
Tytler, R., & Peterson, S. (2003). Young children’s growing understandings of evaporation: Insights from a longitudinal study. In D. Psillos, P. Kariotoglou, V. Tselfes, E. Hatzikraniotis, G. Fassoulopoulos, & M. Kallery (Eds.), Science education research in the knowledge-based society (pp. 191–200). Dordrecht, The Netherlands: Kluwer Academic Publishers.
Wood-Robinson, C. (1991). Young people’s ideas about plants. Studies in Science Education, 19, 119–135.
Zohar, A., & Ginossar, S. (1998). Lifting the taboo regarding teleology and anthropomorphism in biology education – heretical suggestions. Science Education, 82(6), 679–697.
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Helldén, G. Exploring Understandings and Responses to Science: A Program of Longitudinal Studies. Res Sci Educ 35, 99–122 (2005). https://doi.org/10.1007/s11165-004-3435-0
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DOI: https://doi.org/10.1007/s11165-004-3435-0